Treater combination unit

ABSTRACT

A treater combination unit wherein the functions of a heater treater and one or more of a sales gas heater, instrument gas heater/dryer, two-phase separator, and a free water knockout are incorporated into a single unit are included in a single, self-contained and optionally portable unit. In one embodiment, an instrument gas dryer can also optionally be incorporated into the combination unit. In an alternative embodiment, the instrument gas dryer is added to the unit as a retrofit.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims priority to and the benefit of the filing of U.S. Provisional Patent Application Ser. No. 61/645,416, entitled “Treater Combination Unit”, filed on May 10, 2012, and the specification thereof is incorporated herein by reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention (Technical Field)

Embodiments of the present invention relate to a treater combination unit, and more particularly to a treater combination unit which preferably performs the functions of a heater treater and one or more of the following: a sales gas heater, an instrument gas heater/dryer, a free water knockout, and/or a two-phase separator, and which can optionally be transportable in a single self-contained unit.

2. Description of Related Art

Currently many well production systems rely on a heater treater and a two-phase separator and a gas heater. However, such units are typically large stand-alone units which are typically transported and erected, housed, and connected individually one-at-a-time at a well site. This results in significant costs in shipping, placing, and interconnecting such locations at a remote well site. Often, such systems do not fit together simply. Because well sites are often significant distances from the nearest parts suppliers, the installation and interconnection of such components is often forced to be suspended while workers go in search of needed interconnecting components.

Further, because some of the features of some of the systems have similar needs—such as a heat-sinking fluid source and a heat source, the use of such stand-alone units results in significant energy waste and inefficiencies by each component re-creating the same features that are already provided on other units at a well site. Not only does this result in highly inefficient overall system design, it also significantly increases the overall cost—not only in the additional time and expense in setting up and connecting the equipment, but also in the duplication of similar components for each stand-alone unit.

There is thus a need for an apparatus, method, and system which can replace several of the stand-alone units at a well site with a single combined, cost-effective unit and which can greatly speed up the time required to set up a well site, thus resulting in a significant cost savings and a faster return on investment for companies drilling wells.

BRIEF SUMMARY OF EMBODIMENTS OF THE PRESENT INVENTION

An embodiment of the present invention relates to a combination heater treater, gas heater, and two-phase separator system comprising a heater treater, a gas heater, a two-phase separator, a first heating coil disposed in the heater treater through which natural gas from a well casing is directed, a second heating coil through which instrument gas is passed before going into a condenser, a third heating coil through which the instrument gas having already passed through the condenser passes, and the first, second and third heating coils disposed within the low pressure heater treater. In one embodiment, the system can also include a high pressure inlet separator wherein a lower portion of the inlet separator is disposed within the low pressure treater. The system can also include an instrument gas scrubber, an inlet of the instrument gas scrubber in fluid communication with an outlet of said third heating coil.

The system can also include a high pressure gas scrubber, an inlet of said high pressure gas scrubber in fluid communication with an outlet of said condenser. In one embodiment, the second heating coil and the condenser form an instrument gas dryer. In one embodiment, the heater treater, gas heater, and two-phase separator are all disposed on a single transportable frame, which can optionally comprise a skid and which can optionally be skid loaded onto a transport truck.

An embodiment of the present invention relates to a combination heater treater, gas heater, and two-phase separator having a heater treater, a gas heater, a two-phase separator, a first heating coil comprising an inlet, the inlet communicably coupled to an outlet of a well casing, a second heating coil comprising an inlet, the inlet communicably coupled to an outlet of a high pressure inlet separator, a third heating coil comprising an inlet, the inlet communicably coupled to an outlet of a condenser; and the first heating coil, second heating coil and third heating coil in thermal communication with one another.

An embodiment of the present invention relates to a treater combination system having a single transportable frame; a combination heater treater, gas heater and two-phase separator, which has a heat source, a first heating coil disposed therein through which natural gas from a well casing is directed, a second heating coil through which instrument gas is passed before going into a condenser, the first and second heating coils disposed within a low pressure treater, a high pressure inlet separator having an outlet communicably coupled to an inlet of the second heating coil; and the treater combination system disposed on the single transportable frame.

Objects, advantages and novel features, and further scope of applicability of the present invention will be set forth in part in the detailed description to follow, taken in conjunction with the accompanying drawings, and in part will become apparent to those skilled in the art upon examination of the following, or may be learned by practice of the invention. The objects and advantages of the invention may be realized and attained by means of the instrumentalities and combinations particularly pointed out in the appended claims.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

The accompanying drawings, which are incorporated into and form a part of the specification, illustrate one or more embodiments of the present invention and, together with the description, serve to explain the principles of the invention. The drawings are only for the purpose of illustrating one or more preferred embodiments of the invention and are not to be construed as limiting the invention. In the drawings:

FIG. 1 is a drawing which schematically illustrates a process-flow diagram of a treater combination unit according to an embodiment of the present invention wherein a heater treater, a gas separator, an instrument gas heater/dryer and a sales gas heater are provided in a single combined unit;

FIG. 2 is a drawing which schematically illustrates a gas dryer which can optionally be incorporated into and/or connected to an apparatus of an embodiment of the present invention;

FIGS. 3A-D respectively illustrate top, front, rear, and left side views of a dryer which can optionally be incorporated and/or connected in accordance with an embodiment of the present invention;

FIG. 4A is a drawing which illustrates a schematic drawing which illustrates an embodiment of the present invention wherein a free water knockout is incorporated into a heater treater;

FIGS. 4B-E are drawings which respectfully illustrate top, side, left, and right side views of an embodiment of the present invention wherein a free water knockout is incorporated into a heater treater according to an embodiment of the present invention;

FIG. 4F is a drawing illustrating a quieting baffle according to an embodiment of the present invention which is preferably used in the embodiment illustrated in FIGS. 4B-E; and

FIG. 5 is a drawing which illustrates an embodiment of the present invention wherein a heater treater, instrument gas heater/dryer, sales gas heater, gas separator and a free water knockout are all incorporated into a single unit.

DETAILED DESCRIPTION OF THE INVENTION

An embodiment of the present invention relates to a treater combination unit, which preferably includes a heater-treater, a gas heater, and a two-phase separator. The treater combination unit preferably processes various components, such as gas, oil, and water, flowing and/or being pumped from petroleum wells. In a preferred embodiment, the treater combination unit is a single, self-contained, and easily transportable assembly. Optionally, it can be skid-mounted and can require no external electrical power. The treater combination unit preferably receives oil and water from well tubing and natural gas from well casing. By removing natural gas from the casing, the casing pressure is significantly reduced, thus enabling a higher flow rate of oil from the tubing, which is financially desirable.

In one embodiment, the treater combination unit preferably separates the liquid, which can include oil and water, and gas inputs into:

-   -   1) a flow of natural gas, which is temperature and pressure         controlled and which is substantially free of liquids, such as         oil and water;     -   2) a flow of warm oil that is substantially free of gas and         water; and     -   3) a flow of water that is substantially free of oil and gas.

The resulting oil can then be sent to storage tanks for sale. Of the natural gas that is processed by the treater combination unit, most of it is sold as product. However, some of it is preferably used as a fuel source for heating in the treater combination unit. In addition, some of the natural gas can optionally be used to operate the valves, temperature controllers, and other components on the treater combination unit system.

In one embodiment, the present invention separates petroleum components in all weather conditions (including below freezing ambient temperatures) without electricity. In particular, the supply gas dryer component of an embodiment of the present invention provides the ability to operate the treater combination unit as a self-contained system in sub-zero temperatures.

Referring now to the drawings, fluids, which can include oil products containing entrained water and natural gas, can enter treater combination unit 10 at point 12. The fluids are preferably introduced into low pressure treater 14 from the well tubing. In one embodiment, low pressure treater 14 is preferably a low pressure treating separator which preferably comprises a diameter of about 3 feet to about 10 feet. In one embodiment, low pressure treater 14 comprises a length of about 10 feet to about 30 feet, and most preferably a length of about 20 feet. In one embodiment, the low pressure treater can have a working pressure rating of up to about 150 PSIG and most preferably a working pressure rating of up to about 75 PSIG. Low pressure treater 14 preferably has removable fire tube 16 and heating coil 18. In this embodiment, natural gas is preferably combusted in fire tube 16, thus releasing energy in the form of heat. The heat is preferably transferred to water bath 20 which is disposed in the lower portion of low pressure treater 14. Heat is further transferred from water bath 20 to oil layer 22 which preferably resides above water bath 20. Thermostat 24 is preferably in contact with oil layer 22. The amount of fuel entering the combustion process can preferably be controlled based on thermostat 24 so that the temperature of oil layer 22 is held at or near a constant value or range, which can be predetermine or can be user determined.

In one embodiment, the heat from the combustion process substantially degasses the oil into the gaseous layer above the oil inside of treater 14. Also, the heat helps the water entrained in the oil to separate such that the water settles into water bath 20 and the oil floats up to oil layer 22. Treater 14 is preferably sized to provide sufficient residence time to allow the freshly introduced well products to separate into various components. A system of baffles, weirs, and interfacing floats preferably ensure the correct water and oil levels within the low pressure treater. Water and oil can be released from low pressure treater 14 to separate storage tanks via outlets 26 and 28. The resulting natural gas is preferably released into a vapor recovery tower at outlet 30 to be compressed by a vapor recovery unit and then sent into a sales line.

In one embodiment, the natural gas from the casing of the well enters treater combination unit 10 through a temperature and pressure control system which preferably includes heating coli 18, three way temperature control valve 32, and automatic choke 34. After flowing through the temperature and pressure control system, the natural gas preferably enters high pressure inlet separator 36. In one embodiment, high pressure inlet separator 36 can have a diameter of about 10 to about 36 inches and most preferably a diameter of about 20 inches. In one embodiment, high pressure separator 36 can have a length of about 5 feet to about 20 feet and most preferably about 10 feet. In one embodiment, high pressure inlet separator 36 can have a maximum working pressure of up to about 1000 pounds per square inch gauge (“PSIG”) and most preferably about 500 PSIG. High pressure inlet separator 36 is particularly effective when the temperature of the natural gas is maintained at a predetermined level - for example from about 70 degrees Fahrenheit to about 130 degrees Fahrenheit. To maintain this temperature, some of the natural gas coming from the well casing can be heated in heating coil 18, which can optionally be located inside low pressure treater 14. Three-way splitter valve 32 is preferably used to control the amount of gas that is heated by passing through the hot, low pressure treater. Splitter valve 32 preferably ensures that the natural gas entering high pressure inlet separator 36 is at a desired temperature or within a predetermined acceptable temperature range.

High pressure inlet separator 36 is preferably connected to high pressure liquid barrel 38 using flanges, thus enabling different sizes of inlet separators for varying well locations and conditions. In one embodiment, high pressure liquid barrel 38 can have a diameter of from about 6 inches to about 18 inches and most preferably a diameter of about 10.75 inches. In one embodiment, high pressure liquid barrel 38 can have a length of about 3 to about 10 feet and most preferably a length of about 5 feet to about 6 feet. In one embodiment, high pressure liquid barrel 38 can have a maximum working pressure rating of up to about 1000 PSIG and most preferably of up to about 500 PSIG. The natural gas entering high pressure inlet separator 36 will typically contain entrained oil and water. The oil and water can be separated from the natural gas in high pressure inlet separator 36. The oil and water are preferably collected in high pressure liquid barrel 38, which can be kept warm by being located in thermal communication with low pressure treater 14. The resulting liquids are preferably dumped to treater 14 by a liquid level control 40 and motor valve 42 for further processing with the incoming well products. The liquid-free natural gas is preferably released from high pressure inlet separator 36 at point 44. Depending upon the amount of natural gas produced, most of it can optionally be introduced into the natural gas sales line via outlet 46, and some of the natural gas can be sent to the gas dryer 48 through line 50. In one embodiment, gas dryer 48 can be integrally incorporated into treater combination unit 10. In an alternative embodiment, gas dryer 48 can be provided as a separate stand-alone unit or even as a retro-fit unit. In one embodiment, gas dryer 48 need not be provided.

In one embodiment, condensing tube 52 of the gas dryer 48 is preferably mounted outside of an enclosure of treater 14. This allows condensing tube 52 to be exposed to ambient temperatures.

Prior to entering condensing tube 52 of gas dryer 48, the temperature of the natural gas is preferably raised, if necessary. This can optionally be done by passing it through heating coil 54, which can optionally be disposed within low pressure treater 14 or can be a heating coil separate from low pressure treater 14. Three-way splitter valve 56 is optionally provided in order to maintain the temperature of the natural gas in the condensing tube 52 by controlling the volume of gas flowing through heating coil 54.

In one embodiment, heated natural gas containing water and/or hydrocarbon vapors enters condensing tube 52 of the gas dryer system. When the warm natural gas comes in contact with the cold walls of condensing tube 52, water and hydrocarbon vapors condense on the inside wall of condensing tube 52. Condensing tube 52 is preferably surrounded by a conventional shield (such as a steel pipe) to ensure that the liquid water on the inside wall of condensing tube 52 does not solidify into ice, as ice can insulate the system and significantly decrease the operating efficiency of natural gas dryer 48.

In one embodiment, the natural gas leaving gas dryer 48 is preferably sent to second heating coil 56, which is most preferably disposed within low pressure treater 14 before passing thru regulator 60 on the way to fuel/instrument gas scrubber 62. In one embodiment, fuel/instrument gas scrubber 62 can have a diameter of about 6 inches to about 18 inches and most preferably of about 10.75 inches. In one embodiment, the fuel/instrument gas scrubber 62 can have a length of about 18 inches to about 5 feet and most preferably a length of about 3 feet. In one embodiment, fuel/instrument gas scrubber 62 can have a maximum operating pressure of up to about 300 PSIG and most preferably of up to about 125 PSIG. Fuel/instrument gas scrubber 62 preferably removes any additional liquids from the natural gas before the natural gas is used to fuel the combustion process or control the splitter valves and level controllers, for embodiments where the natural gas is so used.

The condensate leaving condenser tube 52 is then preferably sent to high pressure gas scrubber 64, where the liquids are stored before being dumped—most preferably to a vapor recovery tower via outlet 28. In one embodiment, high pressure gas scrubber 64 can have a diameter of about 6 to about 18 inches and most preferably a diameter of about 10.75 inches. In one embodiment, high pressure gas scrubber 64 can have a length of about 18 inches to about 5 feet and most preferably a length of about 3 feet. In one embodiment, high pressure gas scrubber 64 can have a maximum working pressure rating of up to about 1000 PSIG and most preferably up to about 500 PSIG.

Referring now to FIGS. 4A-F, a free water knockout is preferably incorporated into a heater treater. As best illustrated therein, a flow of hydrocarbons from one or more a hydrocarbon-producing wells preferably enters an upper portion of treater combination unit 100 at point 110. Quieting baffle 112 is preferably disposed near an upper portion of combination unit 100 such that waves and near-surface turbulence—particularly those caused by the flow of liquids entering through point 110 are reduced. Treater combination unit 100 is preferably divided into at least two chambers via bulkhead 120 (see FIGS. 4B and 4F). Bulkhead 120 is also provided and is solid so as to prevent mixing of liquids between heater tank portion 114 and free water knockout portion 116 of combination unit 100. In one embodiment, the upper portion of bulkhead 120 is open to allow gas and excess oil to pass from free water knockout portion 116 to heater tank portion 114. In one embodiment, an end portion of free water knockout portion 116 is preferably divided into 3 compartments, each housing a level control and an outlet (free water knockout water level control 118, treater water level control 118′ and treater oil level control 118″) and each compartment preferably comprises a liquid level control and an outlet (as best illustrated from the end view of FIG. 4D).

Free water knockout portion 116 preferably removes the water that separates from the oil without heating the fluid. Referring to FIG. 4A, the produced gas, water, and oil enter at point 110. Through the effects of gravity, water that has separated from the oil and gas settles to the bottom of free water knockout portion 116. The freed oil flows past bulkhead 120 through pipe 122 and exits pipe 122 at outlet 124. Outlet 124 is preferably disposed toward the back of firetube 130 (away from bulkhead 120). In one embodiment, firetube 130 can optionally be formed from another device capable of producing the required amount of heat necessary for a specific application of combination unit 100. By positioning outlet 124 of pipe 122 away from bulkhead 120 at the back of firetube 130, the oil is required to flow along firetube 130 and is thus heated before being drawn at point 131 (see FIG. 4E) into oil pipe 132, which passes through bulkhead 120. The oil-free water that collects in free water knockout portion 116 preferably fills portion 116 to the water level controlled by liquid level control 118. Liquid level control 118, which preferably includes motor valve 119, to dump the water from combination unit 100.

In this embodiment, water is preferably drawn from portion 116 at point 134 of pipe 136. The location of point 134 is preferably near the bottom of free water knockout portion 116, near bulkhead 120, such that water drawn from there is as turbulent-free as possible and so that a maximum amount of oil can separate from the water before it is drawn from free water knockout portion 116.

Water which is freed from the oil in heater tank portion 114 is preferably removed from a lower area of heater tank portion 116 at point 138 of pipe 140. Pipe 140 preferably extends above the expected oil level to point 142 and is open to the gas pressure within heater tank portion, thus forming a weir. Pipe 140 then preferably passes through bulkhead 120 to treater water level control 118′.

In one embodiment, all of the oil and water boxes and their respective controllers, 118 118′ and 118″, are preferably provided in the free water knockout portion 116 simply to accommodate all the liquid level controllers being located on one head to provide user-friendly access. Desirable results thus could of course be achieved by providing them in an alternative location.

In one embodiment, fuel gas preheating coil 144 can optionally be disposed in treater tank portion 114 to preheat the fuel gas before it is fed into firetube 130. In a further embodiment, one or both of a treater bath temperature indicator 146 and a treater bath thermostat 148 can optionally be disposed in treater tank portion to provide the ability to maintain a controlled temperature and/or range of temperatures for the liquids contained therein.

FIG. 4D illustrates the outlets of water that is thus dumped from the treater, the free water knockout, and the oil that is dumped from the treater (150, 152, and 154 respectively).

As best illustrated in FIG. 4C, gas dome 156 and gas dryer 158 are preferably provided to remove the evolved gases and to dry them. Back pressure regulator 160 can also optionally be provided.

FIG. 5 illustrates an embodiment of the present invention wherein a heater treater is combined with a two-phase separator (a.k.a. a “gas separator”), a sales gas heater, an instrument gas and/or instrument gas dryer (a.k.a. a “instrument gas heater/dryer”), and a free water knockout. Although the figure illustrates numerous components incorporated into a single unit. Any one, two, or three of these can be removed such that only a heater treater and one or more other components are incorporated therein. For example, with the present invention, the following combinations of units are possible:

-   -   1) a heater treater and a two phase separator;     -   2) a heater treater, two phase separator, and a free water         knockout;     -   3) a heater treater, two phase separator, free water knockout,         and a sales gas heater;     -   4) a heater treater, two phase separator, free water knockout,         sales gas heater; and an instrument gas heater/dryer;     -   5) a heater treater, two phase separator, free water knockout,         and an instrument gas heater/dryer;     -   6) a heater treater, two phase separator, sales gas heater, and         an instrument gas heater/dryer;     -   7) a heater treater, two phase separator, and a sales gas         separator;     -   8) a heater treater, two phase separator, and an instrument gas         heater/dryer;     -   9) a heater treater, sales gas heater, and an instrument gas         heater/dryer;     -   10) a heater treater and a sales gas heater;     -   11) a heater treater and an instrument gas heater/dryer;     -   12) a heater treater and a free water knockout;     -   13) a heater treater, free water knockout, and a sales gas         heater;     -   14) a heater treater, free water knockout, sales gas heater, and         an instrument gas heater/dryer;     -   15) a heater treater, free water knockout, and an instrument gas         heater/dryer; and     -   16) a heater treater, sales gas heater, and an instrument gas         heater/dryer.

In one embodiment, the present invention can optionally accommodate and process natural gas that is provided at a high pressure—for example at pressures in excess of 200 PSI and more preferably in excess of 300 PSIG, while simultaneously accommodating and processing oil and/or water which can be artificially lifted from inner tubing at a much lower pressure—for example less than 100 PSIG. Thus, in one embodiment, the present invention can process flows of fluids wherein at least one of the fluids is being artificially lifted from a well. In one embodiment, one or more of the sales gas heater, the instrument gas heater/dryer, the separator, and the free water knockout are preferably in thermal communication with the heater treater. In one embodiment, in one embodiment, one or more of the sales gas heater, the instrument gas heater/dryer, the separator, and the free water knockout comprise a portion which is disposed within a vessel and/or shell of the heater treater. In one embodiment, one or more of the sales gas heater, the instrument gas heater/dryer, the separator, and the free water knockout are not physically separated from the heater treater. In one embodiment, the present invention is disposed at a wellsite and is not disposed at another location.

Although the invention has been described in detail with particular reference to these preferred embodiments, other embodiments can achieve the same results. Variations and modifications of the present invention will be obvious to those skilled in the art and it is intended to cover in the appended claims all such modifications and equivalents. The entire disclosures of all references, applications, patents, and publications cited above are hereby incorporated by reference. 

What is claimed is:
 1. A combination heater treater, gas heater, and two-phase separator system comprising: a heater treater; a gas heater; a two-phase separator; a first heating coil disposed in said heater treater through which natural gas from a well casing is directed; a second heating coil through which instrument gas is passed before going into a condenser; a third heating coil through which the instrument gas having already passed through said condenser passes; and said first, said second and said third heating coils disposed within said low pressure heater treater.
 2. The system of claim 1 further comprising a high pressure inlet separator wherein a lower portion of said inlet separator is disposed within said low pressure treater.
 3. The system of claim 1 further comprising an instrument gas scrubber, an inlet of said instrument gas scrubber in fluid communication with an outlet of said third heating coil.
 4. The system of claim 1 further comprising a high pressure gas scrubber, an inlet of said high pressure gas scrubber in fluid communication with an outlet of said condenser.
 5. The system of claim 1 wherein said second heating coil and said condenser form an instrument gas dryer.
 6. The system of claim 1 further wherein said heater treater, said gas heater, and said two-phase separator are all disposed on a single transportable frame.
 7. A combination heater treater, gas heater, and two-phase separator comprising: a heater treater; a gas heater; a two-phase separator; a first heating coil comprising an inlet, said inlet communicably coupled to an outlet of a well casing; a second heating coil comprising an inlet, said inlet communicably coupled to an outlet of a high pressure inlet separator; a third heating coil comprising an inlet, said inlet communicably coupled to an outlet of a condenser; and said first heating coil, said second heating coil and said third heating coil in thermal communication with one another.
 8. A treater combination system comprising: a single transportable frame; a combination heater treater, gas heater and two-phase separator comprising: a heat source; a first heating coil disposed therein through which natural gas from a well casing is directed; a second heating coil through which instrument gas is passed before going into a condenser; said first and said second heating coils disposed within a low pressure treater; a high pressure inlet separator comprising an outlet communicably coupled to an inlet of said second heating coil; and said treater combination system disposed on said single transportable frame. 